{"id":11,"date":"2015-10-21T15:59:07","date_gmt":"2015-10-21T15:59:07","guid":{"rendered":"https:\/\/lab.research.sickkids.ca\/palaniyar\/?page_id=11"},"modified":"2021-06-23T18:09:14","modified_gmt":"2021-06-23T18:09:14","slug":"publications","status":"publish","type":"page","link":"https:\/\/lab.research.sickkids.ca\/palaniyar\/publications\/","title":{"rendered":"Recent Publications"},"content":{"rendered":"

[vc_row][vc_column][vc_tta_accordion style=”modern” color=”sky” c_icon=”chevron” active_section=”1″ collapsible_all=”true”][vc_tta_section title=”2021 Publications” tab_id=”1602610117502-504a0a5d-6f96″][vc_column_text]<\/p>\n

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  1. Azzouz D,<\/strong> Khan M.A<\/strong>. & Palaniyar N<\/strong>. ROS induces NETosis by oxidizing DNA and initiating DNA repair<\/a>. Cell Death Discov. <\/i>2021; <\/i>7:113.<\/li>\n
  2. Banerjee S, Mohammed A, Wong HR, Palaniyar N<\/strong>, Kamaleswaran R. Machine Learning Identifies Complicated Sepsis Course and Subsequent Mortality Based on 20 Genes in Peripheral Blood Immune Cells at 24 H Post-ICU Admission<\/a>. Front Immunol. 2021; 12:592303.<\/li>\n<\/ol>\n

    [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2020 Publications” tab_id=”1624471684227-91bb78d7-d714″][vc_column_text]<\/p>\n

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    1. Oves M, Ravindran M<\/strong>, Rauf MA, Omaish Ansari M, Zahin M, Iyer AK, Ismail IMI, Khan MA<\/strong>, Palaniyar N<\/strong>. Comparing and Contrasting MERS, SARS-CoV, and SARS-CoV-2: Prevention, Transmission, Management, and Vaccine Development<\/a>. Pathogens. 2020; 9(12):985.<\/li>\n
    2. Al-Hassan JM, Hinek A, Renno WM, Wang Y, Liu YF, Guan R, Wen XY, Litvack ML<\/strong>, Lindenmaier A, Afzal M, Paul B, Oommen S, Nair D, Kumar J, Khan MA<\/strong>, Palaniyar N<\/strong>, Pace-Asciak C. Potential Mechanism of Dermal Wound Treatment With Preparations From the Skin Gel of Arabian Gulf Catfish: A Unique Furan Fatty Acid (F6) and Cholesta-3,5-Diene (S5) Recruit Neutrophils and Fibroblasts to Promote Wound Healing<\/a>. Front Pharmacol. 2020; 11:899.<\/span><\/li>\n<\/ol>\n

      [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2019 Publications” tab_id=”1602610092422-6b2372a3-086e”][vc_column_text]<\/p>\n

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      1. Arroyo R<\/strong>, Khan MA<\/strong>, Echaide M, P\u00e9rez-Gil J, Palaniyar N<\/strong>. SP-D attenuates LPS-induced formation of human neutrophil extracellular traps (NETs), protecting pulmonary surfactant inactivation by NETs<\/a>. Commun Biol. 2019; 2:470.<\/span><\/li>\n
      2. Sakuma M, Khan MAS<\/strong>, Yasuhara S, Martyn JA, Palaniyar N<\/strong>. Mechanism of pulmonary immunosuppression: extrapulmonary burn injury suppresses bacterial endotoxin-induced pulmonary neutrophil recruitment and neutrophil extracellular trap (NET) formation<\/a>. FASEB J. 2019; 33(12):13602-13616.<\/li>\n
      3. Khan MA<\/strong>, D’Ovidio A<\/strong>, Tran H<\/strong>, Palaniyar N<\/strong>. Anthracyclines Suppress Both NADPH Oxidase- Dependent and -Independent NETosis in Human Neutrophils<\/a>. Cancers (Basel). 2019; 11(9):1328.<\/li>\n
      4. Hamam HJ<\/strong>, Palaniyar N<\/strong>. Post-Translational Modifications in NETosis and NETs-Mediated Diseases<\/a>. Biomolecules. 2019; 9(8):369.<\/li>\n
      5. Ravindran M<\/strong>, Khan MA<\/strong>, Palaniyar N<\/strong>. Neutrophil Extracellular Trap Formation: Physiology, Pathology, and Pharmacology<\/a>. Biomolecules. 2019; 9(8):365.<\/li>\n
      6. Al-Hassan JM, Fang Liu Y, Khan MA<\/strong>, Yang P, Guan R, Wen XY, Afzal M, Oommen S, Paul BM, Nair D, Palaniyar N<\/strong>, Pace-Asciak C. Furanoic Lipid F-6, A Novel Anti-Cancer Compound that Kills Cancer Cells by Suppressing Proliferation and Inducing Apoptosis<\/a>. Cancers (Basel). 2019; 11(7):960.<\/li>\n
      7. Hamam HJ<\/strong>, Palaniyar N<\/strong>. Histone Deacetylase Inhibitors Dose-Dependently Switch Neutrophil Death from NETosis to Apoptosis<\/a>. Biomolecules. 2019; 9(5):184.<\/li>\n
      8. Khan MA<\/strong>, Ali ZS<\/strong>, Sweezey N, Grasemann H, Palaniyar N<\/strong>. Progression of Cystic Fibrosis Lung Disease from Childhood to Adulthood: Neutrophils, Neutrophil Extracellular Trap (NET) Formation, and NET Degradation<\/a>. Genes (Basel). 2019; 10(3)183.<\/li>\n
      9. Xiu F<\/strong>, Sabz Ali Z<\/strong>, Palaniyar N<\/strong>, Sweezey N. A dual neutrophil-T cell purification procedure and methodological considerations in studying the effects of estrogen on human Th17 cell differentiation<\/a>. J Immunol Methods. 2019; 467:1-11.<\/li>\n
      10. Hamam HJ<\/strong>, Khan MA<\/strong>, Palaniyar N<\/strong>. Histone Acetylation Promotes Neutrophil Extracellular Trap Formation<\/a>. Biomolecules. 2019; 9(1):32.<\/li>\n
      11. Caldarone L, Mariscal A, Sage A, Khan M<\/strong>, Juvet S, Martinu T, Zamel R, Cypel M, Liu M, Palaniyar N<\/strong>, Keshavjee S. Neutrophil extracellular traps in ex vivo lung perfusion perfusate predict the clinical outcome of lung transplant recipients<\/a>. Eur Respir J. 2019 Apr 4;53(4)1801736.<\/li>\n<\/ol>\n

        [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2018 Publications” tab_id=”1602610066631-88a289a6-f940″][vc_column_text]<\/p>\n

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        1. Pilecki B, Wulf-Johansson H, St\u00f8ttrup C, J\u00f8rgensen PT, Djiadeu P<\/strong>, Nex\u00f8e AB, Schlosser A, Hansen SWK, Madsen J, Clark HW, Nielsen CH, Vestbo J, Palaniyar N<\/strong>, Holmskov U, Sorensen GL. Surfactant Protein D Deficiency Aggravates Cigarette Smoke-Induced Lung Inflammation by Upregulation of Ceramide Synthesis<\/a>. Front Immunol. 2018; 9:3013.<\/span><\/li>\n
        2. Khan MA<\/strong>, Pace-Asciak C, Al-Hassan JM, Afzal M, Liu YF, Oommen S, Paul BM, Nair D, Palaniyar N<\/strong>. Furanoid F-Acid F6 Uniquely Induces NETosis Compared to C16 and C18 Fatty Acids in Human Neutrophils<\/a>. Biomolecules. 2018; 8(4):144.<\/li>\n
        3. Azzouz D<\/strong>, Palaniyar N<\/strong>. ApoNETosis: discovery of a novel form of neutrophil death with concomitant apoptosis and NETosis<\/a>. Cell Death Dis. 2018; 9(8):839.<\/li>\n
        4. Azzouz D<\/strong>, Khan MA<\/strong>, Sweezey N, Palaniyar N<\/strong>. Two-in-one: UV radiation simultaneously induces apoptosis and NETosis<\/a>. Cell Death Discov. 2018; 4:51.<\/li>\n
        5. Azzouz L<\/strong>, Cherry A, Riedl M, Khan M<\/strong>, Pluthero FG, Kahr WHA, Palaniyar N<\/strong>, Licht C. Relative antibacterial functions of complement and NETs: NETs trap and complement effectively kills bacteria<\/a>. Mol Immunol. 2018; 97:71-81.<\/li>\n
        6. Khan MA<\/strong>, Philip LM<\/strong>, Cheung G<\/strong>, Vadakepeedika S<\/strong>, Grasemann H, Sweezey N, Palaniyar N<\/strong>. Regulating NETosis: Increasing pH Promotes NADPH Oxidase-Dependent NETosis<\/a>. Front Med (Lausanne). 2018; 5:19.<\/li>\n
        7. Naffah de Souza C<\/strong>, Breda LCD<\/strong>, Khan MA<\/strong>, de Almeida SR, C\u00e2mara NOS, Sweezey N, Palaniyar N<\/strong>. Alkaline pH Promotes NADPH Oxidase-Independent Neutrophil Extracellular Trap Formation: A Matter of Mitochondrial Reactive Oxygen Species Generation and Citrullination and Cleavage of Histone<\/a>. Front Immunol. 2018; 8:1849.<\/li>\n<\/ol>\n

          [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2017 Publications” tab_id=”1602610032722-631595fd-f29c”][vc_column_text]<\/p>\n

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          1. Djiadeu P<\/strong>, Farmakovski N<\/strong>, Azzouz D<\/strong>, Kotra LP, Sweezey N, Palaniyar N<\/strong>. Surfactant protein D regulates caspase-8-mediated cascade of the intrinsic pathway of apoptosis while promoting bleb formation<\/a>. Mol Immunol. 2017; 92:190-198.<\/span><\/li>\n
          2. Khan MA<\/strong>, Farahvash A<\/strong>, Douda DN<\/strong>, Licht JC, Grasemann H, Sweezey N, Palaniyar N<\/strong>. JNK Activation Turns on LPS- and Gram-Negative Bacteria-Induced NADPH Oxidase-Dependent Suicidal NETosis<\/a>. Sci Rep. 2017; 7(1):3409.<\/li>\n
          3. Djiadeu P<\/strong>, Azzouz D<\/strong>, Khan MA<\/strong>, Kotra LP, Sweezey N, Palaniyar N<\/strong>. Ultraviolet irradiation increases green fluorescence of dihydrorhodamine (DHR) 123: false-positive results for reactive oxygen species generation<\/a> Pharmacol Res Perspect. 2017; 5(2):e00303.<\/li>\n
          4. Khan MA<\/strong>, Palaniyar N<\/strong>. Transcriptional firing helps to drive NETosis<\/a>. Sci Rep. 2017; 7:41749.<\/li>\n
          5. Djiadeu P<\/strong>, Kotra LP, Sweezey N, Palaniyar N<\/strong>. Surfactant protein D delays Fas- and TRAIL-mediated extrinsic pathway of apoptosis in T cells<\/a>. Apoptosis. 2017; 22(5):730-740.<\/li>\n<\/ol>\n

            [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2016 Publications” tab_id=”1602609955691-a19e4aff-869a”][vc_column_text]<\/p>\n

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            1. Reidl M, Noone DG, Khan MA<\/strong>, Pluthero FG, Kahr WHA, Palaniyar N<\/strong>, Licht C. Complement Activation Induces Neutrophil Adhesion and Neutrophil-Platelet Aggregate Formation on Vascular Endothelial Cells<\/a>. Kidney Int Rep. 2016; 2(1):66-75.<\/span><\/li>\n
            2. Noone DG, Riedl M, Pluthero FG, Bowman ML, Liszewski MK, Lu L, Quan Y, Balgobin S, Schneppenheim R, Schneppenheim S, Budde U, James P, Atkinson JP, Palaniyar N<\/strong>, Kahr WH, Licht C. Von Willebrand factor regulates complement on endothelial cells<\/a>. Kidney Int. 21016; 90(1):123-34.<\/li>\n
            3. Yuen J<\/strong>, Pluthero FG, Douda DN<\/strong>, Riedl M, Cherry A, Ulanova M, Kahr WH, Palaniyar N<\/strong>, Licht C. NETosing Neutrophils Activate Complement Both on Their Own NETs and Bacteria via Alternative and Non-alternative Pathways<\/a>. Front Immunol. 2016; 7:137.<\/li>\n
            4. Gassas A, Krueger J, Zaidman I, Schechter T, Craig-Barnes H<\/strong>, Ali M, Palaniyar N<\/strong>. Infections and neutrophils in the pathogenesis of bronchiolitis obliterans syndrome in children after allogeneic stem cell transplantation<\/a>. Pediatr Transplant. 2016; 20(2):303-6.<\/li>\n<\/ol>\n

              [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2015 Publications” tab_id=”1447170051210-f58c05d1-e95c”][vc_column_text]<\/p>\n

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              1. Douda DN<\/strong>, Khan MA<\/strong>, Grasemann H, Palaniyar N<\/strong>. SK3 channel and mitochondrial ROS mediate NADPH oxidase-independent NETosis induced by calcium influx<\/a>. PNAS. 2015. 112(9):2817-22. SRA.<\/span><\/li>\n
              2. Douda DN<\/strong>, Khan MA<\/strong>, Grasemann H, Pace-Asciak, C., Palaniyar N<\/strong>. A lipid mediator hepoxilin A3 is a natural inducer of neutrophil extracellular traps in human neutrophils<\/a>. <\/span>Mediators Inflamm. 2015; 2015:520871,7. SRA.<\/span><\/li>\n
              3. Yildiz C<\/strong>, Palaniyar N<\/strong>, Otulakowski G, Khan MA<\/strong>, Post M, Kuebler WM, Tanswell K, Belcastro R, Masood A, Engelberts D, Kavanagh BP. Mechanical ventilation induces neutrophil extracellular trap formation<\/a>. Anesthesiology. 2015. 2015 Apr;122(4):864-75. SRA.<\/span><\/li>\n
              4. Palaniyar N<\/strong>, Mall MA, Taube C, Worgall S, Grasemann H. New Developments in Cystic Fibrosis Airway Inflammation<\/a>. Mediators Inflamm. 2015; 2015:769425.<\/li>\n
              5. Ghorbani P<\/strong>, Santhakumar P, Hu Q, Djiadeu P<\/strong>, Wolever TM, Palaniyar N<\/strong>, Grasemann H. Short-chain fatty acids affect cystic fibrosis airway inflammation and bacterial growth<\/a>. Eur Respir J. 2015; 46(4):1033-45.<\/li>\n
              6. Gassas A, Schechter T, Krueger J, Craig-Barnes H<\/strong>, Sung L, Ali M, Dell S, Egeler RM, Zaidman I, Palaniyar N<\/strong>. Serum Krebs Von Den Lungen-6 as a Biomarker for Early Detection of Bronchiolitis Obliterans Syndrome in Children Undergoing Allogeneic Stem Cell Transplantation<\/a>. Biol Blood Marrow Transplant. 2015; 21(8):1524-8.<\/li>\n<\/ol>\n

                [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2014 Publications” tab_id=”1447170051376-d23930d5-735c”][vc_column_text]<\/p>\n

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                1. Jin L, Batra S, Douda DN<\/strong>, Palaniyar N<\/strong> and Jeyaseelan S. CXCL1 contributes to host defense in polymicrobial sepsis via modulating T cell and neutrophil functions<\/a>. J Immunol. 2014; 193(7):3549-58. C.<\/span><\/li>\n
                2. \n

                  Tolosa M, Palaniyar N<\/strong>.\u00a0<\/span>Severe respiratory insufficiency during pandemic H1N1 infection: prognostic value and therapeutic potential of pulmonary surfactant protein A<\/a>. Crit Care. 2014; 18(4):479. SRA.<\/span><\/p>\n<\/li>\n

                3. \n

                  Bade G, Khan MA<\/strong>, Srivastava AK, Khare P, Solaiappan KK, Guleria R, Palaniyar N<\/strong> and Talwar A. Serum cytokine profiling and enrichment analysis reveal the involvement of immunological and inflammatory pathways in stable patients with chronic obstructive pulmonary disease<\/a>. Int J Chron Obstruct Pulmon Dis. 2014; 9:759-73. CPA.<\/span><\/p>\n<\/li>\n

                4. \n

                  Dhanju R<\/strong>, Min W, Ackerley C, Cimpean L, Palaniyar N<\/strong>, Roifman CM and Grunebaum E. Pulmonary alveolar proteinosis in adenosine deaminase-deficient mice<\/a>. J Allergy Clin Immunol. 2014; 133(5):1467-71. C.<\/span><\/p>\n<\/li>\n

                5. \n

                  Cote O, Clark ME, Viel L, Labbe G, Seah SY, Khan MA<\/strong>, Douda DN<\/strong>, Palaniyar N<\/strong> and Bienzle D. Secretoglobin 1A1 and 1A1A differentially regulate neutrophil reactive oxygen species production, phagocytosis and extracellular trap formation<\/a>. PLoS One. 2014; 9(4):e96217. C.<\/span><\/p>\n<\/li>\n

                6. \n

                  Mehl, A., Ghorbani, P.<\/strong>, Douda DN<\/strong>, Huang, H., Palaniyar N<\/strong>, Ratjen, F., Grasemann H. Effect of arginase inhibition on pulmonary L-arginine metabolism in murine Pseudomonas pneumonia<\/a>. PLoS One. 2014; 9(3): e90232. C.<\/span><\/p>\n<\/li>\n

                7. \n

                  Douda DN<\/strong>, Yip L<\/strong>, Khan MA<\/strong>, Grasemann H and Palaniyar N<\/strong>.\u00a0<\/span>Akt is essential to induce NADPH-dependent NETosis and to switch the neutrophil death to apoptosis<\/a>. Blood. 2014; 123(4): 597-600. SRA.<\/span><\/p>\n<\/li>\n

                8. \n

                  Peter MR, Jerkic M, Sotov V, Douda DN<\/strong>, Ardelean DS, Ghamami N, Lakschevitz F, Khan MA<\/strong>, Robertson SJ, Glogauer M, Philpott DJ, Palaniyar N<\/strong> and Letarte M. Impaired resolution of inflammation in the Endoglin heterozygous mouse model of chronic colitis<\/a>. Mediators Inflamm. 2014; 2014: 767185. C.<\/span><\/p>\n<\/li>\n<\/ol>\n

                  [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2013 Publications” tab_id=”1447170776390-6732477d-021a”][vc_column_text]<\/p>\n

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                  1. \n

                    Madsen J, Gaiha GD<\/strong>, Palaniyar N<\/strong>, Dong T, Mitchell DA, Clark HW. Surfactant Protein D modulates HIV infection of both T-cells and dendritic cells<\/a>. PLoS One. 2013; 8(3): e59047. C.<\/span><\/p>\n<\/li>\n

                  2. \n

                    Gassas A, Craig-Barnes H<\/strong>, Dell SD, Cox P, Schechter T, Doyle J, Sung L, Egeler M and Palaniyar N<\/strong>.\u00a0<\/span>Severe lung injury and lung biopsy in children post-hematopoietic stem cell transplantation: The differences between allogeneic and autologous transplantation<\/a>. Pediatr Transplant. 2013; 17(3): 278-84. SRA.<\/span><\/p>\n<\/li>\n

                  3. \n

                    Cheng OZ<\/strong>, Palaniyar N<\/strong>.\u00a0<\/span>NET balancing: a problem in inflammatory lung diseases<\/a>. Front Immunol. 2013; 4: 1. SRA.<\/span><\/p>\n<\/li>\n

                  4. \n

                    Gassas A, Craig-Barnes H<\/strong>, Dell S, Doyle J, Schechter T, Sung L, Egeler M, Palaniyar N<\/strong>.\u00a0<\/span>Chest health surveillance utility in the early detection of bronchiolitis obliterans syndrome in children after allo-SCT<\/a>. Bone Marrow Transplant. 2012; 2013; 17(3): 814-8. SRA.<\/span><\/p>\n<\/li>\n<\/ol>\n

                    [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2012 Publications” tab_id=”1447170896771-4e814726-0bed”][vc_column_text]<\/p>\n

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                    1. \n

                      Lee BH, Hwang DM, Palaniyar N<\/strong>, Grinstein S, Philpott DJ, Hu J. Activation of P2X(7) receptor by ATP plays an important role in regulating inflammatory responses during acute viral infection<\/a>. PLoS One. 2012; 7(4): e35812. C.<\/span><\/p>\n<\/li>\n

                    2. \n

                      Jeyaseelan S, Palaniyar N<\/strong>.\u00a0<\/span>Comment<\/a> and\u00a0Response<\/a> on \u201cInnate immue collectin surfactant protein D simultaneously binds both neutrophil extracellular traps and carbohydrate ligands and promotes bacterial trapping<\/span>\u201d. Journal of Immunology. 2012; 188(1). SRA.<\/span><\/p>\n<\/li>\n<\/ol>\n

                      [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2011 Publications” tab_id=”1447170898010-b4bc2da0-8c79″][vc_column_text]<\/p>\n

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                      1. \n

                        Douda DN<\/strong>, Jackson R<\/strong>, Grasemann H, Palaniyar N<\/strong>.\u00a0<\/span>Innate immune collectin surfactant protein D simultaneously binds both neutrophil extracellular traps and carbohydrate ligands and promotes bacterial trapping<\/a>. J. Immunol. 2011. 187, 1856-65. SRA<\/span><\/p>\n<\/li>\n

                      2. \n

                        Litvack ML<\/strong>, Post M, Palaniyar N<\/strong>.\u00a0<\/span>IgM promotes the clearance of small particles and apoptotic microparticles by macrophages<\/a>. PLoS One. 2011; 6(3): e17223. SRA.<\/span><\/p>\n<\/li>\n<\/ol>\n

                        [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”2010 Publications” tab_id=”1447170985480-1b1c64c2-5ed1″][vc_column_text]<\/p>\n

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                        1. \n

                          Hansen S, Selman L, Palaniyar N<\/strong>, Ziegler K<\/strong>, Brandt J, Kliem A, Jonasson M, Nielsen O, Hartshorn K, J\u00f8rgensen TJD, Skj\u00f8dt K, Holmskov U.<\/span>\u00a0Collectin 11 (CL-11, CL-K1) is a MASP-1\/3-associated plasma collectin with microbial-binding activity.<\/a>\u00a0J.Immunol. 2010; 185(10):6096-104. CPA.<\/span><\/p>\n<\/li>\n

                        2. \n

                          Litvack ML<\/strong>, Djiadeu P<\/strong>, Sy S<\/strong>, SriRenganathan S, Post M, Palaniyar N<\/strong>.\u00a0Natural IgM and innate immune collectin SP-D bind to late apoptotic cells and enhance their clearance by alveolar macrophages in vivo<\/a>. <\/span>Mol Immunol. 2010; 8(1-3):37-47. SRA.<\/span><\/p>\n<\/li>\n

                        3. \n

                          Krogh-Meibom T<\/strong>, Ingvartsen TL, T\u00f8rnoe I, Palaniyar N<\/strong>, Willis AC, Holmskov U. A simple two-step purification procedure for the iC3b binding collectin conglutinin<\/a>. J. Immunol. Method. 2010; 362(1-2):204-8. CPA.<\/span><\/p>\n<\/li>\n

                        4. \n

                          Palaniyar N<\/strong>.\u00a0<\/span>Antibody equivalent molecules of the innate immune system: parallels between innate and adaptive immune proteins<\/a>. Innate Immunity. 2010; 16(3) 131-7. SRA.<\/span><\/p>\n<\/li>\n

                        5. \n

                          Litvack ML<\/strong>, Palaniyar N<\/strong>.\u00a0<\/span>Review: Soluble innate immune pattern-recognition proteins for clearing dying cells and cellular components: implications on exacerbating or resolving inflammation<\/a>. Innate Immunity. 2010; 16(3): 191-200. SRA.<\/span><\/p>\n<\/li>\n

                        6. \n

                          Craig-Barnes H<\/strong>, Doumouras BS, Palaniyar N<\/strong>.\u00a0<\/span>Surfactant protein D interacts with alpha2-macroglobulin and increases its innate immune potential<\/a>. J Biol Chem. 2010;285(18): 13461-70. SRA<\/span><\/p>\n<\/li>\n

                        7. \n

                          Breuiller-Fouch\u00e9 M, Dubois O, Sediki M, Garcia-Verdugo I, Palaniyar N<\/strong>, Tanfin Z, Chissey A, Cabrol D, Charpigny G, Mehats C. Secreted surfactant protein A from fetal membranes induces stress fibers in cultured human myometrial cells<\/a>. Am J Physiol Endocrinol & Metab. 2010;298(6):E1188-97. C.<\/span><\/p>\n<\/li>\n

                        8. \n

                          Thomsen T, Moeller JB, Schlosser A, Sorensen GL, Moestrup SK, Palaniyar N<\/strong>, Wallis R, Mollenhauer J, Holmskov U. The recognition unit of FIBCD1 organizes into a noncovalently linked tetrameric structure and uses a hydrophobic funnel (S1) for acetyl group recognition<\/a>. J Biol Chem. 2010; 285(2):1229-38. C.<\/span><\/p>\n<\/li>\n

                        9. \n

                          Lee BH, Kushwah R, Wu, J, Ng P, Palaniyar N<\/strong>, Grinstein S, Philpott DJ, Hu J. Adenoviral vectors stimulate innate immune responses in macrophages through cross-talk with epithelial cells<\/a>. Immunol Lett. 2010; 134(1):93-102. C.<\/span><\/p>\n<\/li>\n<\/ol>\n

                          [\/vc_column_text][\/vc_tta_section][\/vc_tta_accordion][\/vc_column][\/vc_row][vc_row][vc_column][vc_btn title=”See Full Publication List” style=”outline” color=”primary” align=”center” link=”url:https%3A%2F%2Flab.research.sickkids.ca%2Fpalaniyar%2Ffull-publication-list%2F||”][\/vc_column][\/vc_row]<\/p>\n<\/div>","protected":false},"excerpt":{"rendered":"

                          [vc_row][vc_column][vc_tta_accordion style=”modern” color=”sky” c_icon=”chevron” active_section=”1″ collapsible_all=”true”][vc_tta_section title=”2021 Publications” tab_id=”1602610117502-504a0a5d-6f96″][vc_column_text] Azzouz D, Khan M.A. & Palaniyar N. ROS induces NETosis by oxidizing DNA and initiating DNA repair. Cell Death Discov. 2021; 7:113. Banerjee S, Mohammed A, Wong HR, Palaniyar N, Kamaleswaran R. Machine Learning Identifies Complicated Sepsis Course and Subsequent Mortality Based on 20 Genes in…<\/p>\n","protected":false},"author":57,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-11","page","type-page","status-publish","hentry","description-off"],"yoast_head":"\nRecent Publications - Palaniyar Lab<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/lab.research.sickkids.ca\/palaniyar\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Recent Publications\" \/>\n<meta property=\"og:description\" content=\"[vc_row][vc_column][vc_tta_accordion style=”modern” color=”sky” c_icon=”chevron” active_section=”1″ collapsible_all=”true”][vc_tta_section title=”2021 Publications” tab_id=”1602610117502-504a0a5d-6f96″][vc_column_text] Azzouz D, Khan M.A. & Palaniyar N. ROS induces NETosis by oxidizing DNA and initiating DNA repair. Cell Death Discov. 2021; 7:113. Banerjee S, Mohammed A, Wong HR, Palaniyar N, Kamaleswaran R. 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ROS induces NETosis by oxidizing DNA and initiating DNA repair. Cell Death Discov. 2021; 7:113. Banerjee S, Mohammed A, Wong HR, Palaniyar N, Kamaleswaran R. 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